Transcript Slide 1
Land-use, Sediment and Flood Risk
delivered by:
Colin Thorne, Nottingham University
on behalf of:
FRMRC Sediment Research Team
www.floodrisk.org.uk
EPSRC Grant: EP/FP202511/1
UPLAND CATCHMENTS
Catchment Sediment Yields: natural vs intensive pasture
Coarse sediment yield
12x greater
Melin-y-grug
Fine sediment yield
5x greater
Pen-y-cwm
Pontbren
Experimental
Catchments
Most excess sediment
generated from within
channel network
Henshaw, A.J. (2009) Impacts of land use changes and land management practices on upland catchment sediment dynamics: Pontbren, midWales. Unpublished PhD thesis. University of Nottingham. Available online at http://riverscience.wikidot.com/alex-henshaw
UPLAND CATCHMENTS
Increased Sedimentation in
Engineered vs Natural Channels
River Wharfe: sedimentation in engineered
channels can lead to significant increases in
flood risk. Review of Foresight on Future
Flooding commissioned by Sir Michael Pitt
(Evans et al., 2008) stated that:
“approximately a year and a half
of aggradation produced an increase
in the flooded area equivalent to
nearly half a century of the impact
of climate change on catchment runoff.”
E.K Raven et al. 2010. Understanding sediment transfer
and morphological change for managing upland gravelbed rivers. Progress in Physical Geography 34(1) 23-45.
TRAGIC EVIDENCE
Cumbrian floods - 2009
• Sediment and vegetation reduced conveyance
capacity of engineered channels;
• Bank scour damaged properties;
• Bed scour led to the collapse of bridges
and loss of life;
• Extensive overbank deposition of
coarse sediments damaged farmland.
LOWLAND CATCHMENTS
Land use and Sediment Dynamics in
the River Tone
Sediment Yield (Best Fit with limits)
Upstream of Taunton
Taunton
Downstream of Taunton
Halse Water
114 T/km2/yr
10,000 T/yr
6,000 - 16,000
64 T/km2/yr
13,000 T/yr
10,000 - 15,500
Halse Water GS
River Tone
83 T/km2/yr
25,000 T/yr
22,500 - 29,000
Bishops Hull GS
French
Weir
River Tone
80 T/km2/yr
23,900 T/yr
21,000 - 29,000
Firepool
Weir
Knapp
Bridge
Ham Weir
New
Bridge
River Tone
River Tone
River Tone
70 T/km2/yr
20,900 T/yr
19,000 - 25,500
60 T/km2/yr
18,000 T/yr
12,000 - 27,000
57 T/km2/yr
17,000 T/yr
12,000 - 27,000
Upper River Tone
Elevated
sediment yields
Localised coarse
sedimentation
Complex fines deposition –
especially at structures
SEDIMENT FUTURES
Modelling future erosion, sediment and morphological responses to
changes in climate and land use
Strategic land use
management can
2050s intensive
substantially reduce
erosion and sediment
yields
Baseline
2050s current
2050s tree strips
Land use changes
buffer rivers from the
worst impacts of
climate change
Uncertainties are
high and further
research is needed
SEDIMENT & FLOOD VICTIMS
• “Drop & collect” questionnaires & interviews:
– Carlisle (2005)
– Cockermouth (2009)
– Boscastle (2004), Lostwithiel, St Blazey (2010)
• Cockermouth: initial results
– 55 respondents stated damage costs
• mean damage/household = £83,000
• 52% of damage attributed to water
• 30% of damages attributed to sediment
• 18% of damage attrributed to debris
– 85 respondents rated life satisfaction
• (0 = extremely dissatisfied; 1 = extremely
satisfied)
• Interviews & thematic analyses :
– High anxiety concerning future flooding
– Stakeholders believe that sediment
management for Conservation pre-empts
sediment management for Flood Control
TAKE HOME MESSAGES
1. Sediment-related flood risks and damages are
significant and flood victims recognise this.
2. Land use management can substantially increase
or decrease sediment-related flood risks.
3. Unless we act, future sediment impacts are likely
to increase due to climate change.
4. Sediment management for flood risk reduction
must be aligned with environmental legislation.
ACKNOWLEDGEMENTS
FRMRC Sediment Researchers and Advisors
Alex Henshaw – Queen Mary, London
Nick Wallerstein – Heriot-Watt University
Emma Raven – Durham University
Ian Dennis – Royal Haskoning
Gemma Harvey – Queen Mary, London
Jorge Rameirez - - Hull University
Phil Soar – Portsmouth University
Jenny Mant – River Restoration Centre
Clifford Williams – Environment-Agency
Chris Parker - University West of England
Steve Dangerfield – Nttm University
Tim Meadows – Nottingham University
Andy Wallis - Black and Veatch
Paul Bates - Bristol University
Paul Brewer – Aberystwyth University
Tom Coulthard - Hull University
Simon Gosling – Nottingham University
Stuart Lane – Université de Lausanne
Mark Macklin - Aberystwyth University
Suresh Surendran – Glamorgen University
Adrian Collins - ADAS
Mervyn Bramley – Independent
Jon Rees - NERC
Mike Thorn – Independent
David Brown - Environment Agency
Jim Walker - Environment Agency
Sean Longfield - Environment Agency